KR20150015840A - Jig deviec for lifting pipe and method for vertical coupling pipes - Google Patents

Abstract

Disclosed are a jig device to lift a pipe, and a method for vertical coupling pipes. According to an embodiment of the present invention, the jig device to vertically install pipes from offshore installations comprises: an upper base unit partially supporting an outer circumference surface and an upper surface of the upper part of the pipe, including a flange unit protruded toward the direction of the diameter of the pipe which can be disassembled; a lower base unit partially supporting an outer circumference surface and a lower surface of the lower part of the pipe, including a flange unit protruded toward the direction of the diameter of the pipe capable of being disassembled; a shackle unit installed in the flange unit of the upper base unit and the flange unit of the lower base unit; and a lifting wire connected to the shackle unit, and lifting the pipe.

Description

Technical Field [0001] The present invention relates to a pipe lifting jig device and pipe vertical joining method for a marine facility,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pipe lifting jig device and pipe vertical joining method for an offshore facility, and more particularly, to a pipe lifting jig device and a lifting jig device capable of lifting a pipe quickly and easily without damaging the pipe at all Thereby vertically coupling the pipe.

There are generally vertical pipelines in various structures of offshore installations.

In order to install the pipelines, the pipe must be lifted up vertically. In order to lift the pipe vertically, the following methods may be used.

As a first method, a lifting jig having a lifting lug is welded to the end of a pipe to be lifted, or the lifting pad is directly welded to the pipe, and then the pipe is lifted to the upper end. When the installation or vertical coupling of the pipe is finished, To remove the lifting jig or pad eye welded to it.

However, since most of these methods have a trace of welding on the pipe or a residue of welding, it is necessary to carry out a separate grinding operation for grinding the surface of the pipe cleanly, and a pipe for welding and removing the lifting jig or the pad eye It is not only inconvenient to lift the pipe but also takes a lot of time and requires a removal operation, grinding operation and nondestructive inspection as described above at a high speed. Therefore, Dangerous.

Alternatively, if it is not possible to weld the pipe to be lifted, a separate margin portion for welding the pad eye to the end of the pipe may be formed, the pad eye may be welded to the margin portion, Lift it up to high.

However, this method also requires that the pipe be pulled up to a high position and then the margin portion must be cut, and the riding operation must be performed in order to finish the cut portion. Therefore, as described above, It is inconvenient and time-consuming, and cutting and grinding operations, especially in high altitudes, always lead to the risk of safety accidents.

Korean Patent Publication No. 10-2013-0003926

The embodiment of the present invention can easily and reliably attach and detach to both ends of a pipe regardless of welding so that the operation according to the lifting of the pipe is simple and quick and can be easily disassembled at the high point after lifting the pipe, .

The embodiment of the present invention is intended to provide a pipe lifting jig device for a marine facility in which no damage or deformation of the pipe is caused by lifting the pipe without welding.

It is also an object of the present invention to provide a pipe lifting jig device for a marine facility which can be easily and quickly applied even when a lifting jig or a pad eye can not be installed vertically on a pipe in a marine facility.

It is another object of the present invention to provide a pipe vertical joining method for an offshore installation capable of vertically and simply connecting other pipes pulled up to pipes installed at high altitudes in a simple and safe manner.

According to an aspect of the present invention, there is provided a lifting jig device for vertically installing a pipe in an offshore facility, the lifting jig device comprising: a flange portion that supports a part of an upper surface and an outer peripheral surface of an upper end portion of the pipe, A disassemblyable upper base unit; A lower base unit supporting a part of an outer peripheral surface and a lower end surface of a lower end of the pipe and having a flange portion protruding in a radial direction of the pipe, A shackle portion provided on a flange portion of the upper base unit and a flange portion of the lower base unit; And a lifting wire connected to the shackle portion to lift the pipe.

The flange portions are in surface contact with each other in a structure facing each other, and can be detachably coupled to each other by fastening means.

The shackle portion may have an annular structure rotatably coupled to the flange portion by fastening means.

The shackle portions may be provided on the upper and lower portions of the flange portions, respectively.

The lifting wire starts from the shackle portion provided at the lower portion of the flange portion of the upper base unit and is fitted into the shackle portion provided at the upper portion of the flange portion of the lower base unit. Then, the lifting wire passes through the shackle portion provided at the upper portion of the flange portion of the upper base unit, Lt; / RTI >

A turnover wire for turning over the pipe may be connected to the shackle portion.

In addition, the upper end of the upper base unit and the lower end of the lower base unit may be spaced along the circumferential direction so as to be openable so as to allow the pre-installed pipes and the lifted pipes to be used in a usable manner.

In addition, a protector for preventing the surface of the pipe from being damaged may be provided inside the upper base unit and the lower base unit.

The upper base unit and the lower base unit may each have a locking protrusion protruding from the center of the pipe so as to catch the end of the pipe.

According to another aspect of the present invention, there is provided a method of vertically coupling another pipe to an upper portion of a pipe installed in a structure, the method comprising: installing an upper base unit and a lower base unit at both ends of a pipe to be lifted; Lifting the pipe by connecting a lifting wire to a shackle portion provided in the upper base unit and the lower base unit, respectively; Accessing a lower base unit of the pipe pulled up from the upper part of the pre-installed pipe; If the two pipes are in close proximity to each other, performing an available tangent to the upper pipe and the lower pipe through the weld seat groove formed in the lower base unit, thereby temporarily coupling the two pipes; Disassembling each base unit and lifting wire from the upper pipe; And joining the ends of the two pipes to each other.

In the step of connecting the lifting wire to the shackle portion, the lifting wire is inserted into the shackle portion provided on the upper portion of the flange portion of the lower base unit, starting from the shackle portion provided under the flange portion of the upper base unit, The shackle portion provided on the upper portion of the flange portion of the unit may extend through the shackle portion.

And a step of supporting the upper pipe to the structure by using separate support means before disassembling each of the base unit and the lifting wire from the upper pipe may be added.

Further, after the end portions of the two pipes are joined, a step of removing the support means when unnecessary is added.

According to the embodiment of the present invention, since the jig device for lifting the pipe vertically is installed on both ends of the pipe at both ends of the pipe in a simple manner, the pipe lifting operation is very simple and quick, The pipe can be safely lifted and installed.

Further, according to the embodiment of the present invention, since the pipe can be lifted without directly welding the lifting jig to the pipe, damage or deformation of the pipe can be prevented from occurring in advance.

Further, according to the embodiment of the present invention, even when the lifting jig or the pad eye can not be welded to a pipe requiring lifting, it can be applied simply and quickly.

Further, according to another embodiment of the present invention, another pipe is lifted vertically to the upper part of the pipe installed in the high-speed structure, and the pipe is easily and precisely vertically coupled .

1 is an exploded perspective view showing a pipe lifting jig device of a marine facility according to an embodiment of the present invention,
2 is an exploded perspective view of a pipe lifting jig device of a marine facility according to an embodiment of the present invention,
3 is a side cross-sectional view of a pipe lifting jig device of an offshore installation according to an embodiment of the present invention,
4 is a sectional view showing the line AA in Fig. 2,
FIG. 5 is an explanatory view for explaining a pipe vertical joining method of a marine facility according to another embodiment of the present invention;
FIG. 6 is an explanatory view showing a state in which pipes are coupled to each other by vertically lifting another pipe on a pipe installed as a next step in FIG. 5;
FIG. 7 is an explanatory view showing a state before dismantling a lifting jig device according to an embodiment of the present invention, after performing a wetting operation after mutually matching the positions of the installed pipe and the lifted pipe,
FIG. 8 is an explanatory view showing a state in which a lifted pipe is supported by a support means as a next step in FIG. 7, and then the lifting jig device according to an embodiment of the present invention is disassembled and the pipes are joined together through main welding;
Fig. 9 is an explanatory view showing a state in which the support means is removed and fixed to the structure in Fig. 8;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In describing the present embodiment, the same reference numerals and symbols are used for the same components, and further description thereof will be omitted.

First, a pipe lifting jig device of an offshore installation according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4. FIG.

FIG. 1 is an exploded perspective view showing a pipe lifting jig device of an offshore installation according to an embodiment of the present invention, FIG. 2 is an assembled perspective view showing a pipe lifting jig device of an offshore installation according to an embodiment of the present invention, 4 is a side sectional view showing a pipe lifting jig device of a marine facility according to an embodiment of the present invention, and Fig. 4 is a sectional view showing the line AA of Fig.

As shown in FIGS. 1 and 2, the present embodiment relates to a pipe lifting jig device for lifting a pipe to vertically install pipes in various structures of an offshore facility, and includes an upper base unit 100 and a lower base unit 200, a shackle portion 300, and a lifting wire 400.

The upper base unit 100 supports a part of the upper and lower surfaces of the upper end of the pipe 10 and includes an upper cylinder portion 110 and a plurality of flange portions 120 Quot; upper flange portion "), and can be divided in half so as to be disassembled in the structure surrounding the pipe 10 and disassembled from the pipe 10.

The upper base unit 100 may be divided into a pair of symmetrical structures and may be coupled to the pipe 10 in a wrapping manner if necessary. It may be dismantled.

In the present embodiment, the upper base unit 100 is divided into two, but need not necessarily be limited thereto, and can be divided into three or more as necessary.

Here, the upper cylinder part 110 is formed to have a curvature corresponding to the radius of curvature of the pipe 10 so as to surround the outer diameter of the pipe. When the upper base unit 100 is divided into two parts as in the present embodiment, 110 are also divided into two to cover the outer diameter of the pipe 10.

Since the upper flange portion 120 is also divided into the upper flange portion 120 and the lower flange portion 120, the upper flange portion 120 is divided into two portions, one on one side and the other on the other side, do.

The lower base unit 200 has the same structure and structure as the upper base unit 100 and is identical to the upper base unit 100 except that the lower base unit 200 is provided at a lower portion of the pipe 10.

That is, the lower base unit 200 supports a flange portion 220 (hereinafter, referred to as a "lower flange portion") that protrudes in the radial direction of the pipe while supporting the outer peripheral surface and a part of the lower end surface of the lower end portion of the pipe 10 And can be disassembled.

A portion of the lower base unit 200 that surrounds the outer diameter of the pipe 10 is referred to as a lower cylinder portion 210 and a portion extending from the lower cylinder portion 210 in a radial direction of the pipe The plurality of flange portions are referred to as a lower flange portion 220.

Since the respective flange portions, that is, the upper flange portion 120 and the lower flange portion 220 are divided, the mating flange portions are brought into face-to-face contact with each other, Can be detachably coupled to each other by the fastening means (50).

A plurality of fastening holes 51 may be formed in the upper flange portion 120 and the lower flange portion 220 so that the fastening means 50 may be installed.

4, a protector 500 for preventing the surface of the pipe 10 from being damaged may be provided on the inner side of the upper cylinder part 110 and the lower cylinder part 210. The protector 500 Is made of a rubber elastic material capable of absorbing or cushioning a shock to protect the pipe 10 during lifting and to prevent the pipe from being damaged when the upper base unit 100 and the lower base unit 200 are attached to and detached from the pipe, ≪ / RTI >

1 and 2, the shackle portion 300 is fastened to the upper flange portion 120 and the lower flange portion 220 through fastening means 50. As shown in FIGS. 1 and 2, The upper flange portion 120 and the lower flange portion 220 may be pivotally coupled by means 50 to the upper flange portion 120 and the lower flange portion 220, respectively.

Therefore, the shackle portion 300 can have a structure that can be freely pivoted by an external force in a state of being coupled onto the flange portions 120 and 220. [

The shackle portion 300 may be provided on the upper and lower portions of the flange portions 120 and 220, respectively. The function and operation of the shake portion 300 will be described later.

2, the lifting wire 400 is connected to the shackle part 300 to lift the pipe 10, and the lifting wire 400 is lifted up from the upper flange part of the upper base unit 100 Since the lower flange portion 220 is in a free state when the lifting wire 400 is connected only to the upper flange portion 120 as described above, The lower end of the pipe may be shaken and it may become difficult to mutually align the pipes when vertically joining the pipe with another pipe after lifting the pipe to a high altitude.

The lifting wire 400 is inserted into the shackle portion 300 provided at the upper portion of the lower flange portion 220 starting from the shackle portion 300 provided at the lower portion of the upper flange portion 120, The shackle part 300 may be connected to the shackle part 300 so as to have a path extending through the shackle part 300 provided at the upper part of the shackle part 300.

When the lifting wire 400 is connected to the shackle part 300 by such a path, it is easy and simple to connect the lifting wire 400, and since the lower end of the pipe is also connected to the lifting wire 400, Can be more stable.

2, a turn-over wire 600 for turning the pipe over can be connected to the shackle part 300. As shown in FIG.

The pipe 10 may need to be reversed to be installed in the structure of the offshore installation after it has been lifted to a high altitude. At this time, the turnover wire 600 may be connected to a necessary part of the shackle part 300, have.

2, the turnover wire 600 is connected to a shackle portion 300 provided at a lower portion of the lower flange portion 220 in order to turn over the pipe 10, But this is only an example, so that the operator can connect the turnover wire 600 to the appropriate shackle portion 300 to flip the pipe or change the position of the pipe.

At the upper end of the upper cylinder part 110 and the lower end of the lower cylinder part 210, welded seat grooves 111 and 211 opened so as to be able to be used for the available pipes can be separated from each other in the circumferential direction .

6 and 7, when pipes 11 and 12 are vertically coupled to each other in a high-elevation state by lifting another pipe 11 while a certain pipe 12 is installed in a high- The upper end of the pipe 12 positioned at the lower portion and the lower end portion of the pipe 11 positioned at the upper portion are welded to each other through the welded seat groove 211 of the lower cylinder portion 210, , 12) can be easily and easily combined with each other.

When the upper pipe 11 and the lower pipe 12 are brought into contact with each other and the two pipes 11 and 12 are temporarily coupled to each other to disassemble the base units 100 and 200 and the lifting wire 400 from the upper pipe 11 have.

At this time, if the upper pipe 11 is not completely supported by only the available contacts of the two pipes, the upper pipe 11 is supported by the structure 2 to be installed using the separate support means 1 and the upper pipe 11 The ends of the two pipes 11 and 12 are completely exposed as shown in FIG. 8 when the base units 100 and 200 and the lifting wire 400 are dismantled.

In this state, when the boundary portions (end portions) of the upper pipe 11 and the lower pipe 12 are coupled (welded) to each other, the vertical coupling of the pipes is completed.

9, when the support means 1 is no longer required after the ends of the upper pipe 11 and the lower pipe 12 are joined together, the support means 1 is removed and the upper pipe 11 is removed from the structure (2).

3, the upper end of the upper base unit 100 and the lower end of the lower base unit 200 are provided with locking protrusions 112 and 212 projecting in the direction of the center line of the pipe 10 so as to catch the ends of the pipes, respectively .

The hooking protrusions 112 and 212 support the respective ends of the pipe 10 and help the pipe to be stably lifted. As shown in FIG. 2, the lifting wire 400 is connected to each shackle part 300, The upper base unit 100 receives an external force to move to the lower end of the pipe and the lower base unit 200 receives an external force to move to the upper end of the pipe.

At this time, since the latching protrusions 112 and 212 are hooked to the respective ends of the pipe, the pipe is stably supported to assist the lifting of the pipe.

The locking protrusions 112 and 212 may be formed entirely along the inner circumferential surfaces of the cylinder portions 110 and 210 but may be formed between the welding seats 111 and 211 as in the present embodiment.

Hereinafter, a pipe vertical joining method of an offshore installation according to another embodiment of the present invention will be described with reference to FIGS. 5 to 9. FIG.

The present embodiment relates to a method of vertically coupling another pipe to an upper portion of a pipe installed in a structure using the pipe lifting jig apparatus according to an embodiment of the present invention described above. What is not specifically described in this embodiment follows the description of the embodiment of the pipe lifting jig apparatus described above.

5, an upper base unit 100 and a lower base unit 200 are installed at both ends of the pipe 10, respectively.

The lifting wire 400 is connected to the shackle portion 300 provided in the upper base unit 100 and the lower base unit 200 to lift the pipe 10 vertically.

The method and the path for connecting the lifting wire 400 to the shackle portion 300 have been described above and thus will not be described.

As shown in FIG. 5, when one pipe is ready to be hoisted, the pipe 12 is lifted into the air and fixed to the high-speed structure, and the other pipe 11 is lifted by the same step as the previous step.

The pipe 11 is placed on the upper part of the pipe 12 installed in the structure and the lower base unit 200 of the pipe 11 is approached to the state shown in FIG.

That is, the lower base unit 200 of the upper pipe 11 is slowly moved closer to the lower pipe 12 in order to couple the two different pipes 11, 12 in the vertical direction.

When the two pipes 11 and 12 come close to each other as shown in FIG. 7, the upper pipe 11 and the lower pipe 12 are welded to the upper pipe 11 and the lower pipe 12 through the weld seat groove 211 formed in the lower base unit 200 ) So that the two pipes are temporarily joined.

When the upper pipe 11 and the lower pipe 12 are brought into contact with each other and the two pipes 11 and 12 are temporarily coupled to each other to disassemble the base units 100 and 200 and the lifting wire 400 from the upper pipe 11 have.

At this time, if the upper pipe 11 is not completely supported by only the available contacts of the two pipes, the upper pipe 11 is supported by the structure 2 to be installed using the separate support means 1 and the upper pipe 11 The ends of the two pipes 11 and 12 are completely exposed as shown in FIG. 8 when the base units 100 and 200 and the lifting wire 400 are dismantled.

When the lifting wire 400 is removed and the fastening means 50 fastened to the flange portions 120 and 220 are removed, the shackle portion 300 and the base units 100 and 200 are disassembled.

In this state, when the boundary portions (end portions) of the upper pipe 11 and the lower pipe 12 are coupled (welded) to each other, the vertical coupling of the pipes is completed.

9, when the support means 1 is no longer required after the ends of the upper pipe 11 and the lower pipe 12 are joined together, the support means 1 is removed and the upper pipe 11 is removed from the structure (2).

While the present invention has been described in connection with what is presently considered to be preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention is not limited thereto.

10: pipe
100: upper base unit 110: upper cylinder part
120: flange portion of the upper base unit (upper flange portion)
200: lower base unit 210: lower cylinder part
220: flange portion of the lower base unit (lower flange portion)
111, 211: welding spot groove 112, 212:
300: shackle part 400: lifting wire
500: Protector 600: Turnover wire

Claims (13)

A lifting jig device for vertical installation of pipes in an offshore installation,
An upper base unit supporting a part of an upper end surface and an upper end surface of the pipe and having a flange protruding in a radial direction of the pipe,
A lower base unit supporting a part of an outer peripheral surface and a lower end surface of a lower end of the pipe and having a flange portion protruding in a radial direction of the pipe,
A shackle portion provided on a flange portion of the upper base unit and a flange portion of the lower base unit; And
And a lifting wire connected to the shackle portion to lift the pipe. The method according to claim 1,
Wherein the flange portions are in face-to-face contact with each other and are detachably coupled to each other by fastening means. 3. The method according to claim 1 or 2,
And the shackle portion is constituted by an annular structure rotatably coupled to the flange portion by fastening means. The method of claim 3,
And the shackle portion is provided on the upper and lower portions of the flange portions, respectively. 5. The method of claim 4,
Wherein the lifting wire is inserted into a shackle portion provided on an upper portion of a flange portion of the lower base unit starting from a shackle portion provided below a flange portion of the upper base unit and then passed through a shackle portion provided on an upper portion of a flange portion of the upper base unit, Pipe lifting jig devices of extended marine installations. The method according to claim 1 or 4,
And a turnover wire for turning over the pipe is connected to the shackle portion. The method according to claim 1,
Wherein the upper base unit and the lower base unit are provided with welding seat grooves spaced apart from each other in the circumferential direction so as to enable the welding of the pipes and the lifted pipes. The method according to claim 1,
And a protector for preventing a surface of the pipe from being damaged is provided inside the upper base unit and the lower base unit. The method according to claim 1,
Wherein the upper base unit and the lower base unit each have protruding hooks protruding in the direction of the pipe center so as to catch the end of the pipe. A method for vertically coupling another pipe to an upper portion of a pipe installed in a structure,
Installing an upper base unit and a lower base unit at both ends of a pipe to be lifted;
Lifting the pipe by connecting a lifting wire to a shackle portion provided in the upper base unit and the lower base unit, respectively;
Accessing a lower base unit of the pipe pulled up to the upper portion of the pipe installed;
If the two pipes are in close proximity to each other, performing an available tangent to the upper pipe and the lower pipe through the weld seat groove formed in the lower base unit, thereby temporarily coupling the two pipes;
Disassembling each base unit and lifting wire from the upper pipe; And
And joining the ends of the two pipes. 11. The method of claim 10,
The lifting wire is inserted into the shackle portion provided on the upper portion of the flange portion of the lower base unit starting from the shackle portion provided at the lower portion of the flange portion of the upper base unit, And a shackle portion provided on an upper portion of the flange portion of the pipe. 11. The method of claim 10,
Further comprising the step of supporting the upper pipe to the structure using separate support means prior to disassembling the respective base unit and lifting wire from the upper pipe. 11. The method of claim 10,
Wherein the step of removing the support means after unnecessary is added after joining the ends of the two pipes.

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